use std::ops::RangeInclusive;
use winnow::combinator::alt;
use winnow::combinator::cut_err;
use winnow::combinator::opt;
use winnow::combinator::peek;
use winnow::combinator::preceded;
use winnow::combinator::repeat;
use winnow::combinator::rest;
use winnow::combinator::trace;
use winnow::token::one_of;
use winnow::token::take;
use crate::parser::prelude::*;
use crate::parser::trivia::from_utf8_unchecked;
#[allow(dead_code)] pub(crate) fn boolean(input: &mut Input<'_>) -> PResult<bool> {
trace("boolean", alt((true_, false_))).parse_next(input)
}
pub(crate) fn true_(input: &mut Input<'_>) -> PResult<bool> {
(peek(TRUE[0]), cut_err(TRUE)).value(true).parse_next(input)
}
const TRUE: &[u8] = b"true";
pub(crate) fn false_(input: &mut Input<'_>) -> PResult<bool> {
(peek(FALSE[0]), cut_err(FALSE))
.value(false)
.parse_next(input)
}
const FALSE: &[u8] = b"false";
pub(crate) fn integer(input: &mut Input<'_>) -> PResult<i64> {
trace("integer",
dispatch! {peek(opt::<_, &[u8], _, _>(take(2usize)));
Some(b"0x") => cut_err(hex_int.try_map(|s| i64::from_str_radix(&s.replace('_', ""), 16))),
Some(b"0o") => cut_err(oct_int.try_map(|s| i64::from_str_radix(&s.replace('_', ""), 8))),
Some(b"0b") => cut_err(bin_int.try_map(|s| i64::from_str_radix(&s.replace('_', ""), 2))),
_ => dec_int.and_then(cut_err(rest
.try_map(|s: &str| s.replace('_', "").parse())))
})
.parse_next(input)
}
pub(crate) fn dec_int<'i>(input: &mut Input<'i>) -> PResult<&'i str> {
trace(
"dec-int",
(
opt(one_of((b'+', b'-'))),
alt((
(
one_of(DIGIT1_9),
repeat(
0..,
alt((
digit.void(),
(
one_of(b'_'),
cut_err(digit).context(StrContext::Expected(
StrContextValue::Description("digit"),
)),
)
.void(),
)),
)
.map(|()| ()),
)
.void(),
digit.void(),
)),
)
.take()
.map(|b: &[u8]| unsafe {
from_utf8_unchecked(b, "`digit` and `_` filter out non-ASCII")
})
.context(StrContext::Label("integer")),
)
.parse_next(input)
}
const DIGIT1_9: RangeInclusive<u8> = b'1'..=b'9';
pub(crate) fn hex_int<'i>(input: &mut Input<'i>) -> PResult<&'i str> {
trace(
"hex-int",
preceded(
HEX_PREFIX,
cut_err((
hexdig,
repeat(
0..,
alt((
hexdig.void(),
(
one_of(b'_'),
cut_err(hexdig).context(StrContext::Expected(
StrContextValue::Description("digit"),
)),
)
.void(),
)),
)
.map(|()| ()),
))
.take(),
)
.map(|b| unsafe { from_utf8_unchecked(b, "`hexdig` and `_` filter out non-ASCII") })
.context(StrContext::Label("hexadecimal integer")),
)
.parse_next(input)
}
const HEX_PREFIX: &[u8] = b"0x";
pub(crate) fn oct_int<'i>(input: &mut Input<'i>) -> PResult<&'i str> {
trace(
"oct-int",
preceded(
OCT_PREFIX,
cut_err((
one_of(DIGIT0_7),
repeat(
0..,
alt((
one_of(DIGIT0_7).void(),
(
one_of(b'_'),
cut_err(one_of(DIGIT0_7)).context(StrContext::Expected(
StrContextValue::Description("digit"),
)),
)
.void(),
)),
)
.map(|()| ()),
))
.take(),
)
.map(|b| unsafe { from_utf8_unchecked(b, "`DIGIT0_7` and `_` filter out non-ASCII") })
.context(StrContext::Label("octal integer")),
)
.parse_next(input)
}
const OCT_PREFIX: &[u8] = b"0o";
const DIGIT0_7: RangeInclusive<u8> = b'0'..=b'7';
pub(crate) fn bin_int<'i>(input: &mut Input<'i>) -> PResult<&'i str> {
trace(
"bin-int",
preceded(
BIN_PREFIX,
cut_err((
one_of(DIGIT0_1),
repeat(
0..,
alt((
one_of(DIGIT0_1).void(),
(
one_of(b'_'),
cut_err(one_of(DIGIT0_1)).context(StrContext::Expected(
StrContextValue::Description("digit"),
)),
)
.void(),
)),
)
.map(|()| ()),
))
.take(),
)
.map(|b| unsafe { from_utf8_unchecked(b, "`DIGIT0_1` and `_` filter out non-ASCII") })
.context(StrContext::Label("binary integer")),
)
.parse_next(input)
}
const BIN_PREFIX: &[u8] = b"0b";
const DIGIT0_1: RangeInclusive<u8> = b'0'..=b'1';
pub(crate) fn float(input: &mut Input<'_>) -> PResult<f64> {
trace(
"float",
alt((
float_.and_then(cut_err(
rest.try_map(|s: &str| s.replace('_', "").parse())
.verify(|f: &f64| *f != f64::INFINITY),
)),
special_float,
))
.context(StrContext::Label("floating-point number")),
)
.parse_next(input)
}
pub(crate) fn float_<'i>(input: &mut Input<'i>) -> PResult<&'i str> {
(
dec_int,
alt((exp.void(), (frac.void(), opt(exp.void())).void())),
)
.take()
.map(|b: &[u8]| unsafe {
from_utf8_unchecked(
b,
"`dec_int`, `one_of`, `exp`, and `frac` filter out non-ASCII",
)
})
.parse_next(input)
}
pub(crate) fn frac<'i>(input: &mut Input<'i>) -> PResult<&'i str> {
(
b'.',
cut_err(zero_prefixable_int)
.context(StrContext::Expected(StrContextValue::Description("digit"))),
)
.take()
.map(|b: &[u8]| unsafe {
from_utf8_unchecked(
b,
"`.` and `parse_zero_prefixable_int` filter out non-ASCII",
)
})
.parse_next(input)
}
pub(crate) fn zero_prefixable_int<'i>(input: &mut Input<'i>) -> PResult<&'i str> {
(
digit,
repeat(
0..,
alt((
digit.void(),
(
one_of(b'_'),
cut_err(digit)
.context(StrContext::Expected(StrContextValue::Description("digit"))),
)
.void(),
)),
)
.map(|()| ()),
)
.take()
.map(|b: &[u8]| unsafe { from_utf8_unchecked(b, "`digit` and `_` filter out non-ASCII") })
.parse_next(input)
}
pub(crate) fn exp<'i>(input: &mut Input<'i>) -> PResult<&'i str> {
(
one_of((b'e', b'E')),
opt(one_of([b'+', b'-'])),
cut_err(zero_prefixable_int),
)
.take()
.map(|b: &[u8]| unsafe {
from_utf8_unchecked(
b,
"`one_of` and `parse_zero_prefixable_int` filter out non-ASCII",
)
})
.parse_next(input)
}
pub(crate) fn special_float(input: &mut Input<'_>) -> PResult<f64> {
(opt(one_of((b'+', b'-'))), alt((inf, nan)))
.map(|(s, f)| match s {
Some(b'+') | None => f,
Some(b'-') => -f,
_ => unreachable!("one_of should prevent this"),
})
.parse_next(input)
}
pub(crate) fn inf(input: &mut Input<'_>) -> PResult<f64> {
INF.value(f64::INFINITY).parse_next(input)
}
const INF: &[u8] = b"inf";
pub(crate) fn nan(input: &mut Input<'_>) -> PResult<f64> {
NAN.value(f64::NAN.copysign(1.0)).parse_next(input)
}
const NAN: &[u8] = b"nan";
pub(crate) fn digit(input: &mut Input<'_>) -> PResult<u8> {
one_of(DIGIT).parse_next(input)
}
const DIGIT: RangeInclusive<u8> = b'0'..=b'9';
pub(crate) fn hexdig(input: &mut Input<'_>) -> PResult<u8> {
one_of(HEXDIG).parse_next(input)
}
pub(crate) const HEXDIG: (RangeInclusive<u8>, RangeInclusive<u8>, RangeInclusive<u8>) =
(DIGIT, b'A'..=b'F', b'a'..=b'f');
#[cfg(test)]
#[cfg(feature = "parse")]
#[cfg(feature = "display")]
mod test {
use super::*;
#[test]
fn integers() {
let cases = [
("+99", 99),
("42", 42),
("0", 0),
("-17", -17),
("1_000", 1_000),
("5_349_221", 5_349_221),
("1_2_3_4_5", 1_2_3_4_5),
("0xF", 15),
("0o0_755", 493),
("0b1_0_1", 5),
(&i64::MIN.to_string()[..], i64::MIN),
(&i64::MAX.to_string()[..], i64::MAX),
];
for &(input, expected) in &cases {
dbg!(input);
let parsed = integer.parse(new_input(input));
assert_eq!(parsed, Ok(expected), "Parsing {input:?}");
}
let overflow = "1000000000000000000000000000000000";
let parsed = integer.parse(new_input(overflow));
assert!(parsed.is_err());
}
#[track_caller]
fn assert_float_eq(actual: f64, expected: f64) {
if expected.is_nan() {
assert!(actual.is_nan());
assert_eq!(expected.is_sign_positive(), actual.is_sign_positive());
} else if expected.is_infinite() {
assert!(actual.is_infinite());
assert_eq!(expected.is_sign_positive(), actual.is_sign_positive());
} else {
dbg!(expected);
dbg!(actual);
assert!((expected - actual).abs() < f64::EPSILON);
}
}
#[test]
fn floats() {
let cases = [
("+1.0", 1.0),
("3.1419", 3.1419),
("-0.01", -0.01),
("5e+22", 5e+22),
("1e6", 1e6),
("-2E-2", -2E-2),
("6.626e-34", 6.626e-34),
("9_224_617.445_991_228_313", 9_224_617.445_991_227),
("-1.7976931348623157e+308", f64::MIN),
("1.7976931348623157e+308", f64::MAX),
("nan", f64::NAN.copysign(1.0)),
("+nan", f64::NAN.copysign(1.0)),
("-nan", f64::NAN.copysign(-1.0)),
("inf", f64::INFINITY),
("+inf", f64::INFINITY),
("-inf", f64::NEG_INFINITY),
];
for &(input, expected) in &cases {
dbg!(input);
let parsed = float.parse(new_input(input)).unwrap();
assert_float_eq(parsed, expected);
let overflow = "9e99999";
let parsed = float.parse(new_input(overflow));
assert!(parsed.is_err(), "{:?}", parsed);
}
}
}